RU168690U1 - EXPANSION TANK RESPIRATORY DEVICE - Google Patents

Abstract

The utility model relates to energy and can be used in the development of thermomechanical equipment of diesel generator sets. The technical task of the utility model is to reduce the metal consumption and dimensions of the respiratory device of the expansion tank, which, in turn, will increase the seismic resistance of the claimed equipment. The technical result of the utility model is ensured by the fact that the breathing device of the expansion tank contains a hollow vertical housing, in the lower wall of which under the cover of the housing there is a breathing channel for communicating the housing cavity with the expansion tank, as well as a pressure valve and a vacuum valve, made in the form of horizontal plates, the vacuum valve plate is mounted on the bottom wall of the housing with the possibility of connecting the expansion tank with the atmosphere, and the vacuum valve plate is perforated oh and located above the breathing channel at the bottom wall of the housing and the cover the latter is provided with discharge channels and on it is installed a pressure plate valve.

Description

The utility model relates to energy and can be used in the development of thermomechanical equipment of diesel generator sets.

A breathing device of an expansion tank is known, comprising a pressure valve and a vacuum valve, the latter of which is configured to connect the cavity of the expansion tank to the atmosphere by means of a supply valve (US 7441517, F01P 11/0247, F01P 11/029, published October 28, 2008).

In a known breathing device, a pressure valve is connected to the liquid volume of the expansion tank, therefore, when this valve is activated, the system loses a relatively large amount of cooling liquid.

The presence in the pressure and vacuum valves of such parts as a spring, the characteristics of which during operation change and ultimately become unacceptable for operation, reduces the reliability of the breathing device.

The closest technical device known (prototype) to this useful model is the breathing device of the expansion tank, containing a hollow vertical housing, in the lower wall of which under the cover of the housing there is a breathing channel for communicating the housing cavity with the expansion tank, as well as a pressure valve and a vacuum valve, made in the form of horizontal plates, and the plate of the vacuum valve is mounted on the bottom wall of the housing with the possibility of connecting the expansion tank with the atmosphere (SU 1013363, B65D 90 / 38, F16K 17/19, published 04/23/1983).

The disadvantage of the prototype is the non-optimal layout of the valves inside the body, which increases the intensity and increases the size of the respiratory device. This disadvantage is especially noticeable during seismic loads, so the breathing device of the expansion tank according to the prototype cannot be used as part of the equipment of diesel generator sets for nuclear power plants.

The technical task of the utility model is to reduce the metal consumption and dimensions of the respiratory device of the expansion tank, which, in turn, will increase the seismic resistance of the claimed equipment.

The technical result of the utility model is ensured by the fact that the breathing device of the expansion tank contains a hollow vertical housing, in the lower wall of which under the cover of the housing there is a breathing channel for communicating the housing cavity with the expansion tank, as well as a pressure valve and a vacuum valve, made in the form of horizontal plates, the vacuum valve plate is mounted on the bottom wall of the housing with the possibility of connecting the expansion tank with the atmosphere, and the vacuum valve plate is perforated oh and located above the breathing channel at the bottom wall of the housing and the cover the latter is provided with discharge channels and on it is installed a pressure plate valve.

The execution of the vacuum valve plate perforated and located above the breathing channel on the lower wall of the housing, as well as the execution of the housing cover with outlet channels and the installation of the pressure valve plate on the housing cover reduces the metal consumption and the dimensions of the breathing device of the expansion tank both due to the optimal arrangement of the valves and due to the facilitation housing covers (outlet channels are made therein), and facilitating a valve plate of a vacuum valve (it is perforated).

The essence of the utility model is illustrated by the drawing, where the figure schematically shows the respiratory device of the expansion tank.

The respiratory device of the expansion tank contains a hollow vertical housing 1, in the lower wall of which under the cover 2 of the housing 1 there is a breathing channel 3 for communicating the cavity of the housing 1 with an expansion tank (not shown). The breathing device also includes a pressure valve made in the form of a horizontal plate 4, and a vacuum valve made in the form of a horizontal plate 5. A horizontal plate 5 of the vacuum valve is located in the cavity of the housing 1 and is installed on the bottom wall of the housing 1, in which the inlet channel 7 is made.

Plate 4 of the pressure valve is installed on the cover 2 of the housing 1. The cover 2 of the housing 1 in the area above the plate 4 is made with outlet channels 8, and the plate 4 on the side of the outlet channels 8 is equipped with a sealing peripheral ring 9 and a guide axial pin 10. The pressure valve is closed by a protective top perforated casing 11. The pressure valve is made with the possibility of opening at a given overpressure in the expansion tank.

The vacuum valve is made with the possibility of connecting the expansion tank with the atmosphere through the inlet channel 7 to break the vacuum at a given vacuum pressure in the expansion tank. The plate 5 of the vacuum valve is located above the breathing channel 3 and is perforated - in the central part of the plate 5 there are bypass holes 12. On the periphery, the plate 5 is made with a sealing ring 13, and along the axis - a guide pin 14.

The respiratory device of the expansion tank works as follows.

During the operation of the expansion tank, a vapor-air mixture is collected in its upper volume, which rises upward into the breathing device, passes the breathing channel 3 and then fills the cavity 6 of the housing 1 through the bypass holes 12 in the plate 5, while squeezing it onto the plate 4 from below and onto the plate 5 from above .

With increasing pressure in the expansion tank, the pressure also increases in the cavity 6 of the housing 1, and when the specified overpressure is reached in the expansion tank, the pressure valve plate 4 rises, part of the vapor-air mixture is vented to the atmosphere, which leads to a decrease in the pressure of the vapor-air mixture in the cavity 6 of the housing 1 and closing the pressure valve. This is how the “exhalation” of the respiratory device occurs, in which the pressure in the expansion tank is normalized.

All this time, the vacuum valve was closed, since the plate 5 was pressed against the wall of the housing 1 by its own weight and pressure of the vapor-air mixture in the cavity 6 above the plate 5.

When the pressure in the expansion tank decreases, the pressure also decreases in the cavity 6 of the housing 1. When the specified vacuum pressure is reached in the expansion tank under the influence of the pressure difference in the atmosphere and in the cavity 6 of the housing 1, the plate 5 rises, overcoming its own weight and pressure in the cavity 6 of the housing 1. Air from the atmosphere through the inlet channel 7 enters under the plate 5 and then through the respiratory channel 3 enters the expansion tank. There is a "breath" of the respiratory device. In this case, the vacuum in the expansion tank breaks, and the pressure in it normalizes.

Claims (1)

The respiratory device of the expansion tank, containing a hollow vertical housing, in the lower wall of which under the cover of the housing there is a breathing channel for communicating the cavity of the housing with the expansion tank, as well as a pressure valve and a vacuum valve, made in the form of horizontal plates, and the plate of the vacuum valve is mounted on the bottom wall body with the possibility of connecting the expansion tank with the atmosphere, characterized in that the plate of the vacuum valve is perforated and located above the respiratory channel on the lower wall of the housing, and the cover of the latter is made with outlet channels and a pressure valve plate is installed on it.

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